![Surgical Robotics and Allied Technologies Area | Sito Istituzionale della Scuola Superiore Sant'Anna Surgical Robotics and Allied Technologies Area | Sito Istituzionale della Scuola Superiore Sant'Anna](http://www.santannapisa.it/sites/default/files/styles/width_1186px_testata/public/paginaarea_imm_fondopagina_0.jpg?itok=Au7uc-Vj)
Surgical Robotics and Allied Technologies Area | Sito Istituzionale della Scuola Superiore Sant'Anna
Technical and Functional Validation of a Teleoperated Multirobots Platform for Minimally Invasive Surgery
The Role Played by Mass, Friction and Inertia on the Driving Torques of Lower-Limb Gait Training Exoskeletons
![Medical robotics—Regulatory, ethical, and legal considerations for increasing levels of autonomy | Science Robotics Medical robotics—Regulatory, ethical, and legal considerations for increasing levels of autonomy | Science Robotics](https://www.science.org/cms/10.1126/scirobotics.aam8638/asset/4ed1ae02-f70c-4ce0-aff3-161339572392/assets/graphic/aam8638-f1.jpeg)
Medical robotics—Regulatory, ethical, and legal considerations for increasing levels of autonomy | Science Robotics
![IEEE Engineering in Medicine and Biology Society on Twitter: "Researchers at Waterloo Engineering use biomechanical computer modelling and simulations to design more energy-efficient actuators for robotic exoskeletons. https://t.co/THeafM2tqG ... IEEE Engineering in Medicine and Biology Society on Twitter: "Researchers at Waterloo Engineering use biomechanical computer modelling and simulations to design more energy-efficient actuators for robotic exoskeletons. https://t.co/THeafM2tqG ...](https://pbs.twimg.com/media/Eyk959sXMAIHUdN.jpg)